Mixers Manufacturers and Suppliers

IQS Directory provides a comprehensive list of mixer manufacturers and suppliers. Use our website to review and source top mixer manufacturers with roll over ads and detailed product descriptions. Find mixer companies that can design, engineer, and manufacture mixer to your companies specifications. Then contact the mixer companies through our quick and easy request for quote form. Website links, company profile, locations, phone, product videos and product information is provided for each company. Access customer reviews and keep up to date with product new articles. Whether you are looking for manufacturers of ribbon mixers, electric mixers, meat mixers, or customized mixers of every type, this is the resource for you.

Related Categories

As world leaders in industrial mixer manufacturers, KADY International offers high-performance industrial mixing machinery including top and bottom entry batch mixers, high shear mixers and chemical mixers. Featuring a worldwide network of representatives and agents, we outreach other industrial mixer companies in consumer reach and accessibility and offers excellent customer service.

Frain Industries is the world's largest provider of high quality processing machinery! We offer a wide variety of mixers based on the product and volume our customers require. Frain Industries offers mixers made of stainless steel and carbon steel! We have a skilled team of engineers and technicians that are able to design mixing solutions around your unique applications. Call us today or visit our website to learn more about our mixers!

Ross is a manufacturer of industrial mixing, blending and dispersion equipment since 1842. We offer sanitary, standard and custom equipment designed to meet the varied mixing requirements of our customers from virtually all the process industries. Our plants in the United States, China and India are all fully equipped with advanced engineering and production tools. In the US alone, we operate five plants and maintain an 8000-sq.ft. Test & Development Center. Call us or visit our website today!

At ARDE Barinco, our goal is to help our clients mix, disperse, deagglomerate, grind and compound their high quality products in the shortest amount of time with the lowest operating and capital cost. This is the prime focus of our corporate efforts, and why we make such fantastic continuous processing equipment such as our basic mixers. Give us a call today!

Kemutec specializes in powder processing equipment for the food, pharmaceutical, and chemical industries. Our high quality line of mixers includes double cone, vertical, ribbon, and plow models. We also offer testing and laboratory services at our Bristol, PA headquarters.

A Multitude Of Mixers

The main purpose of an industrial mixer is to serve as a
catalyst for combining different substances or stirring settled materials. Most
products that consumers utilize for everyday purposes, such as food or
shampoos, are manufactured through the use of a mixer. Mixing devices are also
commonly employed in laboratory settings for agitating chemicals and creating
fused solutions. One of the biggest advantages regarding industrial mixers is the
consistency of output. Mixer design has improved over the years to ensure that
materials are thoroughly combined. Some mixers are designed with the blades to
be the one of the only moving parts while other mixers use stationary blades
while the whole container rotates. Manufacturers have even created different styles
of blades that have higher performances based on the material it is mixing.

Mixers range from as small as portable food processors to as
large as mixers that stir 55-gallon barrels. There are several types of
industrial mixers including: ribbon, high sheer, paddle and more. Certain
mixers are specialized for particular applications. These applications usually
have broken down their processes into an exact science based on required ingredients.
High shear mixers are ideal for industries such as pharmaceuticals, paper
manufacturing, food preparation, cosmetic manufacturing and more. This style of
mixer is known for processes called homogenization, emulsification,
disintegration and dispersion. Manufacturers create mixers with various
features that allow for different speeds which results in higher levels of
versatility. Drum mixers are great for blending compounds that consist of very
different particle sizes such as cement. Since there is so much customizability
in the mixing industry, manufacturers will assist customers with determining
which mixers are best for the situation.

Mixers

Mixers are machines that blend, homogenize, emulsify or otherwise mix
materials and substances into a single substance. They thoroughly
combine virtually any solid or liquid that is necessary to form a final
product. Though mixers vary by size and design, the majority consists of
large tanks or vats with motorized blades or paddles that rotate on a
stationary shaft.

Mixers, depending on the application, may have sharp blades or large flat paddles. The attachments or heads are generally removable to maximize the mixer's effectiveness with different materials. Mixers are most commonly constructed out of stainless steel because of its desirable sanitary and corrosion-resistant properties. Some mixers are made from thermoplastic, titanium, steel, cast iron or aluminum. Mixers are used throughout many industries during the manufacturing or processing period. Their powerful motors and blades allow mixers to work with a wide range of materials. These machines are widely used across many industries including the cosmetic, pharmaceutical, chemical, agricultural, pulp and paper, automotive, water treatment, adhesive and sealant industries to process toothpaste, glue, petroleum products, cement, biodiesel, dry and wet chemicals, medicines, syrups, beverages such as milk, medical ointment, lotions, creams, vitamins, shampoos, detergents, toothpaste, hair dye, petroleum products, silicone, adhesives, polyurethane and many other products or ingredients.

When a mixer is used for large-scale commercial production, it is most likely an industrial mixer because these mixers can process large amounts of materials. They usually have large tanks or vats to hold the substances as they are being mixed by mixing blades, the part of the agitator that imparts force to the material being mixed. Within the category of industrial mixers there are many variations. Paddle mixers are constructed around a horizontal rotating axis with broad shearing paddles radiating from spokes around the axis. Ribbon shaped mixing blades are flat and thin and are used in static mixers. These mixers do not have any moving parts and instead use carefully designed obstructions to force the flow of material to mix and blend together. Because of the simple arrangement of stationary blades inside, static mixers are sanitary and easy to clean. High shear mixers are quite the opposite; these high-speed machines offer homogenization, emulsification, disintegration, particle size reduction and dispersion for many different solid and liquid materials. Another variation of mixers is drum mixers, gallon drums that use the drum's rotation to mix materials. Drum mixers are generally used to blend mixtures of low to medium viscosities such as cement or adhesive slurries; this particular kind of mixer is capable of mixing substances of very different particle sizes.

There are also very specific kinds of mixers that are used with certain materials or to product a certain effect. Food mixers blend, mix, fold, whip, beat or knead multiple edible ingredients in food manufacturing processes. These mixers must meet certain regulations and be completely sanitary. For a breakdown and complete blending of a material, a homogenizer is used. Homogenizers have been used for a number of years in many industries, including science and technology, food processing and in some industrial mixing processes. A pair of common products that are homogenized is milk and cream. By using a perforated screen and high velocities, emulsifiers are able are able to thoroughly mix substances that are generally unblendable. For substances with low viscosities, agitators are used. Agitators are basically process aids because their main functions are secondary to the larger process. Agitators are used mainly in liquids, as agitation is not as effective with thick, highly viscous materials. For material that requires variable lengths of mixing, batch mixers are commonly used. These mixers work with a single load of material at a time before being refilled with another. When materials need to be broken down into smaller pieces, blenders are chosen for their sharp blades and high speeds. The terms "blender" and "mixer" are frequently used interchangeably.

Mixers are an integral part of many industries. Many companies rely on their correct function because mixing is often a first step for products that require further processing. These essential machines must be reliable and durable because certain materials may take a long time to be mixed thoroughly. Improvements in the manufacturing process help mixers perform better for longer periods of time. Because the parts of a mixer can be machined and assembled with precision and with quality materials, they tend to perform better and last longer. The materials that are used to construct mixers are chosen for certain attributes such as corrosion resistance or near-frictionless surfaces. Customized mixers are available though they are not widely offered. Specialty machines are able to perform to exact specifications which allows operators to better control the mixing process without causing excess wear and tear on other general models. The engineering of the mixer also has a role. The placement of the paddles, the design of the blades or the power of the motor are important factors for the engineer to consider. Additionally, companies must determine what additional characteristics they require. For example, some mixers are used to provide significant pressure drops while others are capable of handling large particles moving at high velocities.

Mixer Manufacturers - ARDE Barinco, Inc.

Mixer Manufacturers - ARDE Barinco, Inc.

Mixer Manufacturers - ARDE Barinco, Inc.

Mixer Manufacturers - Admix, Inc.

Mixer Manufacturers - Admix, Inc.

Mixer Manufacturers - Frain Industries

Mixer Types

Agitatorscommonly mix substances with low viscosities
in low-shear applications. Agitators range in size from small agitators
used in laboratory applications to large industrial agitators with
10,000-gallon capacities.

Batch mixers mix one load of material at a time and are refilled with one load after another.

Continuous mixers are important parts of large production lines
that typically have paddle type agitators with a series of mixing stages
that progressively move and blend ingredients. Materials are constantly
fed in specified proportions into continuous mixers, then are mixed,
conveyed to the opposite end and discharged.

Dispersers are single-shaft mixers that break apart or dissolve
solid particles into liquid using a high-speed, rotating saw-tooth
blade.
The blade provides high shear forces that break apart the ingredients
of low viscosity products, such as paints.

Disposable mixers are low-cost plastic spouts containing plastic
mixing elements. Disposable mixers are as efficient as most metal mixers
but
are not appropriate for in-line use at high pressures.

Drum mixers have
adjustable blades in a swing-blade design that maximize liquid movement
at all speeds.

Emulsifiers provide high speed
rotation and centrifugal force through a perforated screen to achieve
emulsification. Emulsifiers are very
effective where a high shear is required, as they can provide
fast mechanical and hydraulic shear

High shear mixers utilize
counter-current mixing, which places very high parallel forces upon
substances. During counter-current mixing,
the mixing pan and the mixing tools rapidly revolve in opposite
directions, resulting in substance uniformity.

High speed dispersion
mills are continuous mixers that break down particle masses to efficiently
provide fine dispersions and stable emulsions.

Homogenizer are high-shear mixers that subject mixtures of varying viscosities to
intense mechanical and hydraulic forces, reducing mixing time and assuring
uniform blend.

Horizontal mixers have three
or four augers and are used for quick mechanical mixing of particular
substances, especially in feed processing.

In-line mixers are being used
more and more in large volume operations, as they can handle an extremely
large batch with much lower horsepower
and with predictable batch turnover. Dynamic in-line mixers
utilize a combination of pump pressure and high-speed rotating elements,
while
static in-line mixers have specially contoured stationary
mixing elements located in a tubular housing that serves as part of
the pipeline.

Laboratory mixers are an integral
part of any laboratory or processing environment, as they can perform
a variety of functions, such as mixing,
emulsifying, homogenizing, disintegrating and dissolving.
Types of lab mixers include compact, dual-shaft, constant-torque and
high viscosity.

Industrial mixers create a uniform mixture from various combined substances on a large scale for a variety of industries.

Motionless mixers,
also known as static mixers, inline mixers and pipeline mixers, are
continuous mixers that operate inline and have no moving parts. Motionless
mixers allow for the blending of two or more fluids and disperse treatment
chemicals into fluid streams.

Paddle
mixers are
fast mixers that use horizontal rotating shafts with fixed arms and attached
paddle-shaped feet to impact the
solids and throw some of them onto the second shaft, while pushing
the rest toward one end of the device. The paddles on the other
shaft push the solids toward the opposite end and toward the other
shaft
and paddle set.

Pharmaceutical mixers are
used in processing a variety of liquids, powders and crystalline solids
in the pharmaceutical processing industry.
Common applications that utilize pharmaceutical mixers include
the mixing of medicine, such as cough syrups and the creation of tablet
coatings for pills.

Production mills
are efficient, high-speed dispersion mills that can quickly disperse,
emulsify, suspend, cook, aerate and deaerate masses of particles. Material
can be put in the production mill through radial slots where they are
hurled off the slot tips against the stator slots, which produces efficient
wetting-out of the solid phase and the quick achievement of stable suspensions,
dispersions and emulsions.

Proportional mixers properly
mix concentrations of water to produce working and make-up solutions
for applications that include coolants,
cleaners, strippers, degreasers, fertilizers and fungicides.
Venturi proportional mixers use water passing over an orifice to create
suction
to draw the concentrate from the container and mix it with
water, while water-driven mixers use water to drive a piston, which
then pumps concentrate
into a mixing chamber where the concentrate is mixed with
water.

Ribbon mixers create an extremely
diverse velocity field by using a counter-transport mechanism consisting
of an outside right-hand ribbon
and an inside left-hand ribbon, both connected to the same
horizontal shaft. Ribbon mixers provide fast blending and mixing in
the vertical
plane, as they can transport an entire mass of solids a short
distance in both directions of the axis of the shaft while lifting
a portion
of the solids a short distance in each direction; however,
they are slow when mixing end to end.

Rotary drum mixers contain
blades that spin around the axis of the drum, mixing the substances,
such as concrete. Drum mixer axes may
be either horizontal or inclined.

Rotor stator technology includes high-speed mixers that utilize a rotor and stationary stator
to produce high
rotor tip speeds. The differential
speed between the rotor and the stator in these mixers imparts
extremely high shear and turbulent energy in the gap between the rotor
and stator.

Vacuum mixers have either
top- or bottom-mounted mixers and are used to eliminate air pulled
into the material during mixing, which increases
product quality.

Mixer Terms

Agglomeration - The recombination of finely dispersed
particles into larger particles, typically caused by a disturbance of
surface forces resulting from a change in environment.

Alginate - Salt found in the cell wall of brown algae. Alginates
are used in food processing to stabilize certain mixtures (e.g. emulsions),
to seal in moisture and to thicken texture, among other things.

Axial Flow - The movement of fluid from the top to the bottom of
a tank.

Batch Mixing - Mixing process
that involves the weighing and measuring of ingredients, the creation
of a mixture from separate ingredients, the removal of the mixture and
the cleaning of the mixer and mixing tools before the start of a new batch.

Colloid - Fine particles of a substance that remain between the
dissolution phase and the suspension phase. Colloids neither dissolve
into other substances, remain suspended within the other substances nor
settle out of the substances.

Continuous Mixing - Mixing process, involving the automatic creation
of a series of mixtures, in which the mixer contains a metering mechanism,
such as a pump, and measures, combines and mixes the ingredients. Because
smaller amounts are mixed continuously, cleaning of the mixer and mixing
tools usually remains fast and easy.

Dispersion - Small particles of a substance evenly distributed
throughout another substance. Dispersed particles are small, but remain
larger than colloids.

Emulsion - A suspension in which one substance is suspended within
the other. They are unable to be blended or mixed but can be combined,
though not dissolved (e.g. oil and vinegar).

Heterogeneous - Consisting of different components that may not
be distributed evenly throughout a mixture. The components, while mixed
together, still remain separate entities.

Homogenous - Consisting of identical components distributed uniformly
throughout the mixture. The components no longer remain separate entities,
but have become one entity, as in a solution.

Impeller- The part of the agitator that imparts force to the material
being mixed. Examples of impellers are propellers, turbines, gates, anchors
and paddles.

Kinetic Energy - The use of motion to create and transmit power.

Mechanical Seal - A device consisting of two rings, one stationary
and one rotating with the agitator shaft, which is used to seal against
pressure where the shaft enters the vessel. Springs or tank pressure
forces the accurately machined faces of these rings together.

Micrometer or Micron - A unit of measurement equivalent to one-millionth
of a meter.

Mixture - A substance containing two or more substances that may
not be distributed evenly throughout and do not bond together chemically.
Substances in mixtures, although combined, maintain separateness.

Paddle - A two-bladed impeller whose diameter is somewhat larger
than the radius of the tank.

Residence Time - The average time a component remains in a continuous-process
mixing environment.

Size Reduction - The breakdown of immiscible particles in a mixture
that cannot be dissolved.

Solution - A homogenous formation created by the dissolution of
a substance or substances into another substance.

Solute - In a solution, the liquid, gaseous or solid substance
or substances that dissolve into a liquid or gaseous substance, called
a solvent. Solutes usually consist of smaller quantities than the substance
into which they are dissolved.

Solvent- The liquid or gaseous substance into which a liquid,
gaseous or solid substance, known as a solute, is dissolved.

Suspension- A heterogeneous mixture in which fine particles of
a solid neither dissolve into a liquid or gaseous substance nor settle
out, but remain within the substance supported by buoyancy. In suspension,
both substances remain separate entities.

Viscosity - The resistance of a fluid, whether liquid or gas, to
flow easily. Fluids with high viscosity, such as molasses, flow slowly;
low viscosity fluids, such as water, flow easily.